Use new cached median method in overlay scaling
Massively speeds up scaling transform cycles (duh).
Also includes a draft for an "overlay transform" type/api; obviously
still a WIP 🏄..
multichartz_backup
parent
0480b5e08a
commit
c41bc5dfd4
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@ -42,6 +42,7 @@ import trio
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from ..log import get_logger
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from ..log import get_logger
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from .._profile import Profiler
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from .._profile import Profiler
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from .._profile import pg_profile_enabled, ms_slower_then
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from .._profile import pg_profile_enabled, ms_slower_then
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from ..data.types import Struct
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# from ._style import _min_points_to_show
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# from ._style import _min_points_to_show
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from ._editors import SelectRect
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from ._editors import SelectRect
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from . import _event
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from . import _event
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@ -343,6 +344,49 @@ async def handle_viewmode_mouse(
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view.order_mode.submit_order()
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view.order_mode.submit_order()
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class OverlayT(Struct):
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'''
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An overlay co-domain range transformer.
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Used to translate and apply a range from one y-range
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to another based on a returns logarithm:
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R(ymn, ymx, yref) = (ymx - yref)/yref
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which gives the log-scale multiplier, and
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ymx_t = yref * (1 + R)
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which gives the inverse to translate to the same value
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in the target co-domain.
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'''
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viz: Viz # viz with largest measured dispersion
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mx: float = 0
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mn: float = float('inf')
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up_swing: float = 0
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down_swing: float = 0
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disp: float = 0
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def loglin_from_range(
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self,
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y_ref: float, # reference value for dispersion metric
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mn: float, # min y in target log-lin range
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mx: float, # max y in target log-lin range
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offset: float, # y-offset to start log-scaling from
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) -> tuple[float, float]:
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r_up = (mx - y_ref) / y_ref
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r_down = (mn - y_ref) / y_ref
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ymn = offset * (1 + r_down)
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ymx = offset * (1 + r_up)
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return ymn, ymx
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class ChartView(ViewBox):
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class ChartView(ViewBox):
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'''
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'''
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Price chart view box with interaction behaviors you'd expect from
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Price chart view box with interaction behaviors you'd expect from
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@ -1034,19 +1078,20 @@ class ChartView(ViewBox):
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row_start = arr[read_slc.start - 1]
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row_start = arr[read_slc.start - 1]
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if viz.is_ohlc:
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if viz.is_ohlc:
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y_med = np.median(in_view['close'])
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y_med = viz.median_from_range(
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read_slc.start,
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read_slc.stop,
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)
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y_start = row_start['open']
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y_start = row_start['open']
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else:
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else:
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y_med = np.median(in_view[viz.name])
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y_med = viz.median_from_range(
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read_slc.start,
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read_slc.stop,
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)
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y_start = row_start[viz.name]
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y_start = row_start[viz.name]
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profiler(f'{viz.name}@{chart_name} MINOR curve median')
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profiler(f'{viz.name}@{chart_name} MINOR curve median')
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# x_start = ixrng[0]
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# print(
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# f'{viz.name} ->\n'
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# f'(x_start: {x_start}, y_start: {y_start}\n'
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# )
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start_datums[viz.plot.vb] = (
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start_datums[viz.plot.vb] = (
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viz,
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viz,
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y_start,
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y_start,
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